Prove: $$\cot x=\sin x\,\sin\left(\frac{\pi}{2}-x\right)+\cos^2x\,\cot x$$
Hi there! So this problem asks to prove this trigonometric identity. I am not sure how to approach these problems other than needing to know the quotient,p ythagorean, and reciprocal identities. From here I can see that $\cot x$ can be changed to $1/\tan x$, but is it really necessary? If someone could help with this, it'd be very appreciated!
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$\begingroup$$$\textrm{RHS}=\sin x\sin\left(\frac{\pi}{2}-x\right)+\cos^2 x\cot x=\sin x\cos x+\cos^2 x\cot x\\ =\cot x(\sin^2 x + \cos^2 x)=\cot x=\textrm{LHS}$$
$\endgroup$ $\begingroup$$$\cot x = \sin x \sin(π/2−x)+\cos ^2 x \cot x $$ $$= \sin x \sin(π/2−x) + \cos^2 x \cot x$$ $$= \sin x \cos x + \cos^2 x \left(\frac{\cos x} {\sin x}\right)$$ $$= \frac{\sin^2 x \cos x + \cos x (\cos^2 x)} {\sin x}$$ $$= \frac{\cos x (\sin^2 x + \cos^2 x)} {\sin x}$$ $$= \frac {\cos x (1)} {\sin x}$$ $$= \frac {1} {\tan x}$$ $$= \cot x$$
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